| 1. | Each atom would have a very small net charge .
每一个原子都会有一个很小的净电荷。 |
| 2. | A sol considered as a whole cannot have a net charge .
一种胶体,就其整体而言可认为不带净电荷。 |
| 3. | The net charge of a body might be described by a statement of the excess number of electrons or protons in the body .
一个物体所带净电荷的量,可以用在这个物体内的过剩电子数或过剩质子数来表示。 |
| 4. | The net measure of this property possessed by a body or contained in a bounded region of space
静电荷物体所带有的或一固定区域空间内含有的净电荷 |
| 5. | This feature is used to separate amino acids for analysis by chromatography and other methods
每个氨基酸都有自己的等电点,等电点的条件是净电荷为零。 |
| 6. | The bond orders , net charges and the composition of molecular orbitals are calculated for the simplified ca3co409 model
简化的ca _ 3co _ 4o _ 9模型的键级、净电荷和分子轨道组成用相同的方法进行计算。 |
| 7. | The net charge of transition metal atom has decreased as a result of the static effect of lithium ion and effect of energy band of co and ni
由于锂离子的静电作用和钴、镍自身能带结构的影响,过渡金属的净电荷减小。 |
| 8. | The fundamentals of electrosorption on granular activated carbon for water treatment are discussed . the configuration and net atomic charges of chloroform are calculated with pm3 calculation by mopac2000
用mopac2000软件中的pm3计算法计算氯仿分子的结构与表面净电荷分布可知:氯仿分子的结构呈四面体。 |
| 9. | Compared with limn2o4 , li2mn2o4 has lower reversible capacity , in that the net charge of lithium ion increases , accordingly interactions between lithium ion and oxygen one strengthen , leading to difficulty for lithium ion to deintercalate
Li2mn2o4与limn2o4相比,锰离子的净电荷几乎不变,表明锰离子与氧离子的相互作用变化不大,大部分锂离子和氧离子的相互作用增强,锂离子脱出较为困难,可逆容量降低。 |
| 10. | The research discovered that the nitric acid oxidation may remarkably increase , the activated charcoal surface acidic groups and bases the content , enhances the activated charcoal the superficial water affinity , falls to the phpzc value , and creates the activated charcoal structure to cave in the reduction which accumulates with the relative surface . thus in the activated charcoal adsorption drinking water has the slight pollutant performance to have the serious influence
研究发现:硝酸氧化可显著增加活性炭表面酸性基团的含量,提高活性炭的表面亲水性,降低phpzc (水溶液中固体表面净电荷为零时的ph值)值,并造成活性炭结构塌陷和比表面积的减少。使活性炭吸附饮用水中有机物的能力大大降低。 |
